Systems and methods for extraction of policy information

ABSTRACT

In a system for extracting policy information from text, a processor analyzes if the text is relevant to a top-level category, and then determines if at least a portion of the text is relevant to categories and subcategories within a taxonomy of categories and subcategories related to the top-level category. If at least a portion of the text is determined to be relevant to the category/subcategory, a classifier extracts policy information associated with the category/subcategory. Using text that includes a known policy the classifiers can be trained to correctly recognize categories/subcategories, and the values associated therewith.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority to and the benefit of U.S. ProvisionalPatent Application No. 61/614,933, filed on Mar. 23, 2012, which isincorporated herein by reference in its entirety.

FIELD OF THE INVENTION

The invention relates generally to the field of information processing,and, more specifically, to extraction and presentation of policyinformation.

BACKGROUND

Users often encounter information such as policies (e.g., privacy and/ordata-security policies), terms and conditions of a contract (e.g., insoftware product licenses, leases for cars and apartments), etc. duringeveryday activities. These activities include surfing the web andvisiting sites that have implemented certain policies. Such information,e.g., legal information embedded in sources such as websites and othernon-electronic and/or electronic documents can be difficult to locateand/or analyze. Therefore, user may be unaware of such policies, terms,etc. Also, in many situations the user cannot continue interaction witha website unless the user accepts the website's policy. Though thewebsite may direct a user to the website's policy, user may not haveunderstood the user's obligations and any rights granted to the website.As such, in order to continue interacting with an on-line destination(e.g., a website) the user may unknowingly consent to any requirementsimposed by the policies and/or terms of the on-line destination, or mayunknowingly violate such requirements.

SUMMARY OF THE INVENTION

Various embodiments of the present invention facilitate automaticextraction of policy information such as privacy policies, terms ofservice, software licenses, etc., from text in electronic form, e.g.,sentences and/or documents. The extracted policy may be presented to auser in a clear and concise manner, when the user visits an on-linedestination. Thus, the user may provide an informed consent to thepolicy or may decline to accept the policy. The extraction is performedby an automatic legal advisory system, which may be a software system, asoftware application, a software component, or a device. The extractionof policy information is performed using a hierarchy of classifiers,each one utilizing a machine learning algorithm and/or natural languageprocessing. Exemplary machine learning algorithms include, but are notlimited to multinomial logistic regression, word profile similaritycomparison, and naive Bayes classifier.

Various embodiments of an automatic legal advisory system allow forautomatic extraction of policy information from legal documents inelectronic form. Unlike some known systems, the different embodiments donot determine whether a document or text complies with a providedpolicy. Instead, the nature of the policy is determined from adocument/text. To this end, an exemplary automatic legal advisory systemenables categorization of a legal document based on pre-determinedcategories, and processing of the document so as to notify the contentof each category to a user. In general, the exemplary system firstdetermines if the text to be analyzed is relevant to a certain top-levelcategory such as privacy policy, lease, license, etc. Such determinationcan be made using machine learning and/or natural language processing.Once the top-level category is determined, a taxonomy of categoriesassociated with the top-level category is selected. For example, thecategories associated with privacy policy may be collectingpersonally-identifiable information, collectingnon-personally-identifiable information, sharing collected information,and allowing opt-out.

One classifier may determine if a portion of the text is relevant to acategory such as collecting personally-identifiable information. If aportion of the text is determined to be relevant, the classifier mayextract specific information such as whether personally-identifiableinformation is collected or is not collected. If it is determined thatpersonally-identifiable information is collected, the same or one ormore other classifiers may extract information related to varioussubcategories. The subcategories related to the category collectingpersonally-identifiable information may include, for example, collectionof name, collection of address, collection of email address, andcollection of IP address. Various classifiers may determine whether ornot name, address, email address, IP address, etc. are collected.

The classifiers used for the extraction of policy information may bepre-trained using any publicly or privately available information, aswell as using expert opinions. The classifiers may also be trainedduring the process of extracting policy information from a document.

Once the policy information is extracted, it is made available to auser, including, but not limited to, a website visitor, a user of anapplication, or a user of a device. For example, when a user accesses aprivacy domain (such as a website, an application, or a device) that iscovered by a legal document, the user is presented with policyinformation extracted from the legal document and/or information derivedfrom extracted policy information.

The user may be requested to make a decision based on the presentedinformation, upon which the automatic legal advisory system may performcertain activities or abstain therefrom, such as limiting the access toa website or its part, limiting the access to an application or itspart, and/or limiting the access to a device or its components. Theadvisory system may also undertake other activities.

The issuer of a legal document may participate in the advisory processby submitting corrections related to any false positives in policyinformation extracted from the legal document. These corrections may beintegrated into the training data used for training the classifiers.Retraining after integrating the corrections into training data canimprove the accuracy of the information extraction process.

Accordingly, in one aspect various embodiments feature a method ofextracting policy information from text. The text may include a sentenceor a document. The method includes analyzing, by a first processor, ifthe text is relevant to a top-level category. If the text is determinedto be relevant to the top-level category, the method includesdetermining by the first processor if at least a portion of the text isrelevant to a category within a taxonomy of categories related to thetop-level category. If at least a portion of the text is determined tobe relevant to the category, the method further includes extracting fromthe relevant portion of the text, using a first classifier, policyinformation associated with the category.

In some embodiments, the method further includes extracting from therelevant portion of the text, using a second classifier, policyinformation associated with a subcategory within the taxonomy. Thesubcategory is related to the category for which information wasextracted. The top-level category may include one or more of a privacypolicy, a lease agreement, and a license. The category may include oneor more of collecting personally-identifiable information, collectingnon-personally-identifiable information, sharing the collectedinformation, and allowing opt-out. The subcategories related tocollecting personally-identifiable information may include one or moreof collection of name, collection of address, collection of emailaddress, and collection of IP address.

In some embodiments, the analyzing step, the determining step, or bothmay include machine learning and/or natural language processing by thefirst processor. The first classifier may employ one or more ofmultinomial logistic regression, word profile similarity comparison, andnaive Bayes classification, k-nearest neighbor classification, andmaximal likelihood based classification. The classifier is not limitedto these techniques, however, and any machine learning technique,natural language processing technique, and/or another statisticalclassification technique may be used for classification. The method mayfurther include storing the extracted policy information in a database,and transmitting the stored policy information, e.g., to a user. Thedatabase may include a local database, a distributed database, or both.

In another aspect various embodiments feature a method of responding topolicy information extracted from text. The method includes receivingextracted policy information, and the extraction is performed byanalyzing, by a first processor, if the text is relevant to a top-levelcategory. If the text is determined to be relevant to the top-levelcategory, the extraction of policy information further includesdetermining by the first processor if at least a portion of the text isrelevant to a category within a taxonomy of categories related to thetop-level category. Moreover, if at least a portion of the text isdetermined to be relevant to the category, the extraction includesidentifying from the relevant portion of the text, using a classifier,policy information associated with the category. The method alsoincludes displaying, by a second processor, the received extractedpolicy information to a user and receiving an instruction from the userin response to the displayed policy information. In addition, the methodincludes taking an action by the second processor in response to thereceived instruction.

In some embodiments, the second processor is the first processor. Theaction taken may include limiting access to at least a part of a sourceassociated with the text. The source may include one or more of awebsite, an application, and a device. In some embodiments, the methodincludes training or adjusting the classifier if at least one of theportions of the text determined to be relevant to the category and theextracted policy information is not related to the category.

In another aspect various embodiments feature a method of training aclassifier for extracting policy information from text. The methodincludes extracting using a classifier, first data from first textcomprising known policy information associated with a category. Thefirst data and the known policy information are compared, and theclassifier is adjusted if the first data and the known policyinformation are substantially different. The training method may furtherinclude testing, using the classifier, if second text lacking policyinformation associated with the category is nevertheless determined tobe relevant to the category, and adjusting the classifier such that thesecond text is not determined to be relevant to the category. The firstand second texts may be portions of a single piece of text such as adocument.

In another aspect various embodiments feature a system for extractingpolicy information from text. The system includes a storage medium and aprocessor. The processor is configured as an analyzer adapted foranalyzing if the text is relevant to a top-level category. The analyzeris also adapted for determining, if the text is determined to berelevant to the top-level category, if at least a portion of the text isrelevant to a category within a taxonomy of categories related to thetop-level category. The processor is also configured as a firstclassifier adapted for extracting from the relevant portion of the textpolicy information associated with the category, if at least a portionof the text is determined to be relevant to the category.

In some embodiments, the processor is further configured as a secondclassifier adapted for extracting from the relevant portion of the textpolicy information associated with a subcategory within the taxonomy.The subcategory is related to the category. The text from which policyinformation is extracted may include a sentence and/or a document. Theanalyzer may be adapted for natural language processing, and the firstclassifier may employ one or more of multinomial logistic regression,word profile similarity comparison, naive Bayes classification,k-nearest neighbor classification, and maximal likelihood basedclassification. The classifiers and the analyzers are not limited to theexemplary techniques described herein, however, and any machinelearning, natural language processing, and/or statistical classificationtechnique may be used for classification and/or analysis of text.

In some embodiments, the top-level category may include one or more of aprivacy policy, a lease agreement, and a license, and the category mayinclude one or more of collecting personally-identifiable information,collecting non-personally-identifiable information, sharing collectedinformation, and allowing opt-out. In some embodiments, the subcategoryis related to collecting personally-identifiable information, and thesubcategory includes one or more of collection of name, collection ofaddress, collection of email address, and collection of IP address.

The processor may be further configured for storing the extracted policyinformation in a database, and transmitting the stored policyinformation, e.g., to a user's computing and/or communication device.The database may include a local database, a distributed database, orboth. In some embodiments, the processor is further configured fordisplaying the extracted policy information to a user, receiving aninstruction from the user in response to the displayed policyinformation, and taking an action in response to the receivedinstruction. The action taken may include limiting access to at least apart of a source associated with the text, and the source may includeone or more of a website, an application, and a device. Additionally orin the alternative, the processor may be configured for adjusting thefirst classifier if at least one of the portion of the text determinedto be relevant to the category and the extracted policy information isnot related to the category.

In yet another aspect, various embodiments feature a system thatincludes a storage medium and a processor, for training a classifier forextracting policy information from text. The processor is configured asa classifier for extracting first data from first text including knownpolicy information associated with a category. The processor is alsoconfigured as a comparator for comparing the first data and the knownpolicy information, and as an adjuster for adjusting the classifier ifthe first data and the policy information are substantially different.The processor may also be configured for testing, using the classifier,if second text lacking policy information associated with the categoryis nevertheless determined to be relevant to the category. Theclassifier may be adjusted if the second text is determined to berelevant to the category. The first and second texts may be portions ofa single piece of text such as a document.

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawings, like reference characters generally refer to the sameparts throughout the different views. Also, the drawings are notnecessarily to scale, emphasis instead generally being placed uponillustrating the principles of the invention. In the followingdescription, various embodiments of the present invention are describedwith reference to the following drawings, in which:

FIG. 1 schematically depicts categories associated with an exemplarytop-level category according to one embodiment;

FIG. 2 schematically depicts a taxonomy of categories and subcategoriesassociated with an exemplary top-level category, and values associatedwith those categories and subcategories, according to one embodiment;

FIG. 3 schematically illustrates a training corpus for training a policyextraction system according to one embodiment;

FIG. 4 schematically depicts a policy extraction system according to oneembodiment; and

FIG. 5 illustrates operation of an exemplary policy extraction systemaccording to one embodiment.

DESCRIPTION

In general, any text (e.g., a legal document, a sentence, etc.) candefine a policy. The text can be classified using top-level categories,and in effect, the text may form a license agreement, a privacy policy,a rental agreement, etc. FIG. 1 illustrates the top-level categoryprivacy policy 102, which describes what a provider of a website may ormay not do with respect to the information obtained from a visitor tothe website. The information may be obtained directly, by requesting theuser to provide information such as name, address, etc., and/or may beobtained indirectly, e.g., by analyzing user's actions on the website.

Various categories are associated with the top-level category 102. Theseinclude collection of personally identifiable information 104,collection of non-personally-identifiable information 106, sharing ofcollected data 108, and the option to optout 110. Various subcategoriesmay also be associated with one or more of these categories. Forexample, the category sharing of collected data 108 may relate to asubcategory sharing personally-identifiable information or to asubcategory sharing non-personally-identifiable information only.Similarly, the category option to optout 110 may be related to asubcategory opting out of sharing collected data only or to asubcategory opting out of data collection itself.

FIG. 2 schematically depicts a taxonomy model based on variouscategories and value options. The document 202 may include the privacypolicy 102 described with reference to FIG. 1. Default values may alsobe associated with one or more of these categories and subcategoriessuch as defaults for both collection of personally identifiableinformation 104 and collection of non-personally identifiableinformation 106 may be true 214, 216, and the default for sharing ofcollected data 108 may be false 218. The optout 110 is not relevant 220to sharing of collected data, but it can be relevant to the collectionof personally-identifiable and/or non-personally-identifiableinformation.

Training data are prepared to build a Natural Language Processing (NLP)model for a classifier that can determine if a text belongs to a certaincategory in the taxonomy. With reference to FIG. 3, in general, if aclassifier is being trained for a certain category and/or subcategory,the training data include documents and/or statements associated withthat category/subcategory, and optionally, values related to thatcategory/subcategory. For example, the training corpus 302 includesvarious pieces of known text such as 304, 306, 308, 310, etc. The text304 has a portion 312 that describes that personally-identifiableinformation is not collected. A portion 314 describes thatnon-personally-identifiable information is also not collected. A portion316 describes that collected data may be shared. While there may be nodata to be shared, if none is collected, the text 304 can be used totrain the classifiers. Another portion 318 of the text 304 describesthat a user may opt out of sharing the collected information.

The other pieces of text 306, 308, 310, etc. may include text related toone or more of the categories and subcategories related to the top-levelcategory and may include corresponding values. Some portions of a pieceof text (e.g., text 306) may not be relevant to any category orsubcategory at all. The classifier may be trained to correctly recognizethe categories present in each piece of text and the associated values.Moreover, if a classifier incorrectly determines that a portion of textthat does not contain any policy information as being relevant to acertain category/subcategory, the classifier may be adjusted so as tocorrect this error.

As depicted in FIG. 4, once calibrated (i.e., trained), a legal advisorysystem 400 can extract information pertaining to various duties,requirements, consents, etc. from text, and present the extractedinformation to a user in a concise, easy to understand manner. Thesystem 400 includes a processor 404 and memory 406. The processor can beconfigured as one or more of an analyzer 408, classifiers 410, 412, acomparator 414, and an adjustor 416. One or more of these components mayalso be provided as hardware components such as logic circuitry, customASIC, FPGA, etc. The processor and the memory are in communication withan input/output device 420 (e.g., a keyboard, mouse, printer, thumbdrive, etc.), a display 422, a local database 424, and a communicationinterface 426. The communication interface may be in communication witha remote database 428 and alternatively or in addition, with a usercomputer 430.

The system 400 receives text 440 (e.g., a document, text at a website,etc.) via the input/output device 420. The text is analyzed and thepolicy information, if provided therein, is extracted as describedabove, using analyzer 408 and the classifiers 410, 412. The advisorysystem may issue a list of values for each category/subcategory. Itshould be understood that systems having only one classifier or morethan two classifiers are also within the scope of the invention. Oneclassifier (e.g., Classifier 1 410) may be associated with one or morecategories, and another classifier (e.g., Classifier 2 420) may beassociated with one or more subcategories. Alternatively, for eachcategory a dedicated classifier may be associated therewith, and foreach subcategory a dedicated classifier may be associated therewith aswell.

The extracted policy 442 may be output using the input/output device 420and/or may be stored in the local database 424. Alternatively or inaddition the extracted policy 442 may be stored at the remote database428 via the communication interface 426. In some embodiments, theextracted policy 442 is displayed to a user on the display 422 and inother embodiments, the extracted policy 422 is transmitted via thecommunication interface 426 to a user's computer 430, and displayedthereon. Depending on the input received from the user, the processormay allow continued access to the source from which the text wasobtained—such as an online store or a social media site, etc, or mayblock access to that source.

In the training mode, the processor is additionally configured tooperate as a comparator 414 and/or an adjustor 416. These components mayalso be provided as hardware component, as described above. The text 440includes a known policy, and the information extracted using theanalyzer 408 and the classifiers 410, 412 is compared with the knownpolicy information, using the comparator 414. If there is a mismatch, orif the analyzer and/or classifiers determine that a portion of the text440 is relevant to a top-level category, category, or subcategory whenthat portion is not relevant, the analyzer 408 and the classifiers 410,412 can be adjusted to correct these errors.

With reference to FIG. 5, the legal document advisory system 502receives text 504 that includes policy information. The system 502extracts and summarizes the policy information using a natural languageprocessing (NLP) model 506. The NLP model may be incorporated into thelegal advisory system 502 by configuring a processor and/or may beprovided as hardware components, as described above. The exemplaryextracted policy is displayed to a user in a concise manner, informingthe user that personally-identifiable information is not collected, butnon-personally-identifiable information is collected and shared. Theuser has the option to opt out from the collection and/or sharing of thenon personally identifiable information.

Example 1: Do Not Track

In this example the automatic legal advisory system is run on privacypolicies of trackers, i.e., websites that collect personallyidentifiable information and/or non-personally identifiable informationabout visitors of other websites. The trackers often retain thecollected data and transfer the data to third parties. The automaticlegal advisory system extracts privacy policy information related to thetracker and stores it into a centralized and/or distributed database.

The policy information is extracted as described above, and is presentedto the web surfer along with the web page that is being tracked by atracker. Thus, the web surfer is no longer unaware of what the trackertracks at this particular web page. In order to learn the tracker'spolicies, however, the web surfer is not required to read the entiretext of the privacy policy of the tracker. The web surfer is then givena choice to disable a particular tracker. Once the web surfer has made adecision, the automatic legal advisory system may take necessary actionby disabling access to the website or a portion thereof, etc.

If there are any errors in the process of extracting policy informationfrom the privacy policy of a tracker, the tracker can facilitate theresolution of the errors by submitting corrections as described above.

Example 2: Safe Web Browser

In this example the automatic legal advisory process is built into a webbrowser. The privacy advisory process extracts privacy policyinformation and presents it to a web surfer as soon as the user isconfronted with a requirement to accept or decline a privacy policy on awebsite the user visits. The policy information is extracted asdescribed above, and is presented to the web surfer along with the webpage seeking compliance with the policy. The web surfer, however, is notrequired to read the entire text of the privacy policy at the web page.Once the web surfer has made a choice to either accept or decline theprivacy policy, based on the information presented by the advisorysystem, the system may take necessary action. For example, the systemmay grant or deny the website access to the user's private information.

Example 3: Ad-Hoc Extraction of Information

In Example 1, the automatic legal advisory system stores the extractedinformation into a centralized and/or distributed database, and thenpresents it to the user. In this example, however, the legal advisorysystem extracts information in an ad-hoc manner. The user may visit ane-commerce website to purchase a product and/or service. During thepurchase, the website presents an End User License Agreement (EULA) tothe user, requesting the user to agree to the terms and conditions ofthe EULA. It should be understood that the EULA is for illustrativepurposes only, and that the legal advisory system can extractinformation from any text, e.g., a document such as a contract, a lease,a policy, etc., and/or from a sentence.

The legal advisory system scans the EULA and determines that the EULA isa license. The system then identifies various categories of the EULA andvalues associated with those categories. For example, the legal advisorysystem may determine that according to the EULA the vendor may store theuser's credit-card information, may provide different levels of servicefor different fees, may automatically renew the use's subscription, etc.A score card, such as that shown in FIG. 4, is then presented to theuser. In this mode, the legal advisory system, instead of presentingextracted information that is stored in a database, extracts informationon the fly (e.g., when a user accesses a website), and then presents itto the user, enabling the user to make an informed decision.

The embodiments described herein open up several possibilities that werenot available before. First, automatic extraction of policy informationallows coping with the growing number of privacy domains (such aswebsites, applications, or devices) and their legal documents.Furthermore, automatic extraction allows a user not only to be informedabout policy information upon entering a privacy domain, but also tostay informed about all updates in the legal documents of a domain theuser has already entered.

Second, automatic extraction of policy information can improvetransparency and interoperability. In other words, it becomes possibleto present information contained in a legal document to a user in a morereadable way, and exchange of privacy information with other softwaresystems, software applications, software components, devices, andhardware systems is also enabled. The extraction of information can beperformed in real time, i.e., about when the text is presented to theuser (as described in Example 3) or off-line (e.g., as described inExample 1). However, the extracted information is presented to the userin real time, i.e., when the user visits a privacy domain with which theextracted information is associated.

Each functional component described above may be implemented asstand-alone software components or as a single functional module. Insome embodiments the components may set aside portions of a computer'srandom access memory to provide control logic that affects one or moreof the analyzing, determining, extracting, storing, transmitting,displaying, receiving instruction, taking an action, comparing, andadjusting steps described above. In such an embodiment, the program orprograms may be written in any one of a number of high-level languages,such as FORTRAN, PASCAL, C, C++, C#, Java, Tcl, PERL, or BASIC. Further,the program can be written in a script, macro, or functionality embeddedin commercially available software, such as EXCEL or VISUAL BASIC.

Additionally, the software may be implemented in an assembly languagedirected to a microprocessor resident on a computer. For example, thesoftware can be implemented in Intel 80x86 assembly language if it isconfigured to run on an IBM PC or PC clone. The software may be embeddedon an article of manufacture including, but not limited to,computer-readable program means such as a floppy disk, a hard disk, anoptical disk, a magnetic tape, a PROM, an EPROM, or CD-ROM.

The invention can be embodied in other specific forms without departingfrom the spirit or essential characteristics thereof. The foregoingembodiments are therefore to be considered in all respects illustrativerather than limiting on the invention described herein.

What is claimed is:
 1. A method of extracting privacy policy informationfor a website from its text, the method comprising: by a processor,determining using statistical classification whether the text isrelevant to the website privacy policy; when the text is determined tobe relevant to the privacy policy, determining, by the processor,whether at least a portion of the text is relevant to a category withina taxonomy of categories related to the privacy policy; when at least aportion of the text is determined to be relevant to the category,extracting from the text, using a first classifier, privacy policyinformation associated with the category; by the processor, derivingdata based on the extracted privacy policy information, the data being asubset of the privacy policy and providing a summary of the privacypolicy that includes the website's policies regarding collection ofpersonally-identifiable information, collection ofnon-personally-identifiable information, sharing of collectedinformation, and permission to opt-out, wherein the summary of theprivacy policy, when presented to a user, obviates the need for the userto read the entire text of the privacy policy such as portions of theprivacy policy concerning matters other than the policies on thecollection of personally-identifiable information, the collection ofnon-personally-identifiable information, the sharing of collectedinformation, and the permission to opt-out; using the processor,presenting to the user when the user visits the website, the data alongwith a user prompt to accept or decline the privacy policy; and by theprocessor, restricting access to at least a portion of the website whenan instruction is received, in response to the presented data, todecline the privacy policy.
 2. The method of claim 1, further comprisingextracting from the relevant portion of the text, using a secondclassifier, policy information associated with a subcategory within thetaxonomy, the subcategory being related to the category.
 3. The methodof claim 2, wherein the subcategory is related to collectingpersonally-identifiable information, and the subcategory is selectedfrom the group consisting of collection of name, collection of address,collection of email address, and collection of (“Internet Protocol”) IPaddress.
 4. The method of claim 1, wherein the text comprises one of asentence and a document.
 5. The method of claim 1, wherein at least oneof analyzing, determining, and extracting comprises machine learning bythe processor.
 6. The method of claim 1, wherein at least one ofanalyzing, determining, and extracting comprises natural languageprocessing.
 7. The method of claim 1, wherein extracting the policyinformation using the first classifier comprises employing statisticalclassification.
 8. The method of claim 7, wherein at least one of thestatistical classification used during analyzing the text and thestatistical classification employed during extracting the policyinformation comprises at least one of multinomial logistic regression,word profile similarity comparison, naive Bayes classification,k-nearest neighbor classification, and maximal likelihood basedclassification.
 9. The method of claim 1, wherein the category isselected from the group consisting of collecting personally-identifiableinformation, collecting non-personally-identifiable information, sharingcollected information, and allowing opt-out.
 10. The method of claim 1,further comprising: storing the extracted policy information in adatabase; and transmitting the stored policy information.
 11. The methodof claim 10, wherein the database comprises at least one of a localdatabase and a distributed database.
 12. The method of claim 1, whereinthe statistical classification includes at least one of machine learningand natural language processing.
 13. The method of claim 1, furthercomprising permitting, by the processor, access to the website when aninstruction is received, in response to the presented data, to acceptthe privacy policy.
 14. The method of claim 1, further comprising:detecting a requirement by the website that a user accept or decline theprivacy policy, wherein deriving and presenting the data is effected inresponse to the requirement.
 15. The method of claim 1, wherein thesummary of the privacy policy includes information on the categorywithin the taxonomy of categories.
 16. A system for extracting privacypolicy information for a website from its text, the system comprising:at least one storage medium, at least one of the at least one storagemedium storing the text; and a processor configured, by instructionsstored in at least one of the at least one storage medium, as: (i) ananalyzer operative to (a) determine using statistical classification ifthe text is relevant to the website privacy policy and (b) when the textis determined to be relevant to the privacy policy, determine whether atleast a portion of the text is relevant to a category within a taxonomyof categories related to the privacy policy; and (ii) a first classifieroperative to extract, from the text, privacy policy informationassociated with the category, when at least a portion of the text isdetermined to be relevant to the category, wherein the processor isconfigured to derive data based on the extracted privacy policyinformation, present to a user when the user visits the website, thedata along with a user prompt to accept or decline the privacy policy,and restrict access to at least a portion of the website when aninstruction is received, in response to the presented data, to declinethe privacy policy, the data being a subset of the privacy policy andproviding a summary of the privacy policy that includes the website'spolicies regarding collection of personally-identifiable information,collection of non-personally-identifiable information, sharing ofcollected information, and permission to opt-out, wherein the summary ofthe privacy policy, when presented to the user, obviates the need forthe user to read the entire text of the privacy policy such as portionsof the privacy policy concerning matters other than the policies on thecollection of personally-identifiable information, the collection ofnon-personally-identifiable information, the sharing of collectedinformation, and the permission to opt-out.
 17. The system of claim 16,wherein the processor is further configured as a second classifieroperative to extract, from the relevant portion of the text, policyinformation associated with a subcategory within the taxonomy, thesubcategory being related to the category.
 18. The system of claim 17,wherein the subcategory is related to collecting personally-identifiableinformation, and the subcategory is selected from the group consistingof collection of name, collection of address, collection of emailaddress, and collection of IP address.
 19. The system of claim 16,wherein the text comprises one of a sentence and a document.
 20. Thesystem of claim 16, wherein at least one of the analyzer and the firstclassifier is configured for machine learning.
 21. The system of claim16, wherein at least one of the analyzer and the first classifier isconfigured for natural language processing.
 22. The system of claim 16,wherein the first classifier employs statistical classification.
 23. Thesystem of claim 22, wherein at least one of the statisticalclassification used by the analyzer and the statistical classificationemployed by the first classifier comprises at least one of multinomiallogistic regression, word profile similarity comparison, naive Bayesclassification, k-nearest neighbor classification, and maximallikelihood based classification.
 24. The system of claim 16, wherein thecategory is selected from the group consisting of collectingpersonally-identifiable information, collectingnon-personally-identifiable information, sharing collected information,and allowing opt-out.
 25. The system of claim 16, wherein the processoris further configured to: store the extracted policy information in adatabase; and transmit the stored policy information.
 26. The system ofclaim 25, wherein the database comprises at least one of a localdatabase and a distributed database.
 27. The system of claim 16, whereinthe processor is further configured to adjust the first classifier. 28.The system of claim 16, wherein the statistical classification includesat least one of machine learning and natural language processing. 29.The system of claim 16, wherein the processor is further configured topermit access to the website when an instruction is received, inresponse to the presented data, to accept the privacy policy.
 30. Thesystem of claim 16, wherein the summary of the privacy policy includesinformation on the category within the taxonomy of categories.
 31. Amethod of extracting privacy policy information for a website from itstext, the method comprising: by a processor, determining usingstatistical classification whether the text is relevant to the websiteprivacy policy; when the text is determined to be relevant to theprivacy policy, determining, by the processor, whether at least aportion of the text is relevant to a category within a taxonomy ofcategories related to the privacy policy; when at least a portion of thetext is determined to be relevant to the category, extracting from thetext, using a first classifier, privacy policy information associatedwith the category; by the processor, deriving data based on theextracted privacy policy information, the data being a subset of theprivacy policy and providing a summary of the privacy policy thatincludes the website's policies regarding collection ofpersonally-identifiable information, collection ofnon-personally-identifiable information, sharing of collectedinformation, and permission to opt-out, wherein the summary of theprivacy policy, when presented to a user, obviates the need for the userto read the entire text of the privacy policy such as portions of theprivacy policy concerning matters other than the policies on thecollection of personally-identifiable information, the collection ofnon-personally-identifiable information, the sharing of collectedinformation, and the permission to opt-out; using the processor,presenting to the user in real-time the data along with a user prompt toaccept or decline the privacy policy; and by the processor, restrictingaccess to at least a portion of the website when an instruction isreceived, in response to the presented data, to decline the privacypolicy.
 32. A system for extracting privacy policy information for awebsite from its text, the system comprising: at least one storagemedium, at least one of the at least one storage medium storing thetext; and a processor configured, by instructions stored in at least oneof the at least one storage medium, as: (i) an analyzer operative to (a)determine using statistical classification if the text is relevant tothe website privacy policy and (b) when the text is determined to berelevant to the privacy policy, determine whether at least a portion ofthe text is relevant to a category within a taxonomy of categoriesrelated to the privacy policy; and (ii) a first classifier operative toextract, from the text, privacy policy information associated with thecategory, when at least a portion of the text is determined to berelevant to the category, wherein the processor is configured to derivedata based on the extracted privacy policy information, present to auser in real-time the data along with a user prompt to accept or declinethe privacy policy, and restrict access to at least a portion of thewebsite when an instruction is received, in response to the presenteddata, to decline the privacy policy, the data being a subset of theprivacy policy and providing a summary of the privacy policy thatincludes the website's policies regarding collection ofpersonally-identifiable information, collection ofnon-personally-identifiable information, sharing of collectedinformation, and permission to opt-out, wherein the summary of theprivacy policy, when presented to the user, obviates the need for theuser to read the entire text of the privacy policy such as portions ofthe privacy policy concerning matters other than the policies on thecollection of personally-identifiable information, the collection ofnon-personally-identifiable information, the sharing of collectedinformation, and the permission to opt-out.